Targeting KRAS Mutant Cancers with a Covalent G12C-Specific Inhibitor | Zendy

Matthew R. Janes | Zendy; Jingchuan Zhang | Zendy; LianSheng Li | Zendy; Rasmus Hansen | Zendy; Ulf Peters | Zendy; Xin Guo | Zendy; Yuching Chen | Zendy; Anjali Babbar | Zendy; Sarah J. Firdaus | Zendy; Levan Darjania | Zendy; Jun Feng | Zendy; Jeffrey H. Chen | Zendy; Shuangwei Li | Zendy; Shisheng Li | Zendy; Yun Oliver Long | Zendy; Carol Thach | Zendy; Yuan Liu | Zendy; Ata Zarieh | Zendy; Tess Ely | Zendy; Jeff Kucharski | Zendy; Linda Kessler | Zendy; Tao Wu | Zendy; Ke Yu | Zendy; Yi Wang | Zendy; Yvonne Yao | Zendy; Xiaohu Deng | Zendy; Patrick P. Zarrinkar | Zendy; Dirk Brehmer | Zendy; Dashyant Dhanak | Zendy; Matthew V. Lorenzi | Zendy; Dana D. HuLowe | Zendy; Matthew P. Patricelli | Zendy; Pingda Ren | Zendy; Yi Liu | Zendy

AI Assistant Blog Pricing

Home ZAIA Blog

Open Access

Targeting KRAS Mutant Cancers with a Covalent G12C-Specific Inhibitor

Author(s) -

Matthew R. Janes,

Jingchuan Zhang,

LianSheng Li,

Rasmus Hansen,

Ulf Peters,

Xin Guo,

Yuching Chen,

Anjali Babbar,

Sarah J. Firdaus,

Levan Darjania,

Jun Feng,

Jeffrey H. Chen,

Shuangwei Li,

Shisheng Li,

Yun Oliver Long,

Carol Thach,

Yuan Liu,

Ata Zarieh,

Tess Ely,

Jeff Kucharski,

Linda Kessler,

Tao Wu,

Ke Yu,

Yi Wang,

Yvonne Yao,

Xiaohu Deng,

Patrick P. Zarrinkar,

Dirk Brehmer,

Dashyant Dhanak,

Matthew V. Lorenzi,

Dana D. HuLowe,

Matthew P. Patricelli,

Pingda Ren,

Yi Liu

Publication year - 2018

Publication title -

cell

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 26.304

H-Index - 776

eISSN - 1097-4172

pISSN - 0092-8674

DOI - 10.1016/j.cell.2018.01.006

Subject(s) - kras , druggability , in vivo , biology , mutant , allosteric regulation , cancer research , gtp' , in vitro , mutation , microbiology and biotechnology , computational biology , pharmacology , biochemistry , genetics , enzyme , gene

KRAS G12C was recently identified to be potentially druggable by allele-specific covalent targeting of Cys-12 in vicinity to an inducible allosteric switch II pocket (S-IIP). Success of this approach requires active cycling of KRAS G12C between its active-GTP and inactive-GDP conformations as accessibility of the S-IIP is restricted only to the GDP-bound state. This strategy proved feasible for inhibiting mutant KRAS in vitro; however, it is uncertain whether this approach would translate to in vivo. Here, we describe structure-based design and identification of ARS-1620, a covalent compound with high potency and selectivity for KRAS G12C . ARS-1620 achieves rapid and sustained in vivo target occupancy to induce tumor regression. We use ARS-1620 to dissect oncogenic KRAS dependency and demonstrate that monolayer culture formats significantly underestimate KRAS dependency in vivo. This study provides in vivo evidence that mutant KRAS can be selectively targeted and reveals ARS-1620 as representing a new generation of KRAS G12C -specific inhibitors with promising therapeutic potential.

The content you want is available to Zendy users.

Already have an account? Click here to sign in.

Having issues? You can contact us here

Accelerating Research